6 References

  1. GlobalAgendaCouncilontheFutureofManufacturing,TheFutureofManufacturing:Driving Capabilities, Enabling Investments, URL: http://www.cggc.duke.edu/pdfs/Future_of_Manufacturing_Driving_Capabilities.pdf, Access date March 14, 2015
  2. S. S. Shipp, N. Gupta, B. Lal, J. A. Scott, C. L. Weber, M. S. Finnin, M. Blake, S. Newsome, and S. Thomas, 2012, Emerging global trends in advanced manufacturing, Institute for Defense Analyses, Virginia, US.
  3. J. Davis, T. Edgar, J. Porter, J. Bernaden, M. Sarli, Smart Manufacturing, manufacturing intelligence and demand-dynamics performance. Computers & Chemical Engineering, 2012, 47,145-156.
  4. SMLC, Implementing 21st Century Smart Manufacturing: Workshop Summary Report, June 2011, http://www.energetics.com/resourcecenter/products/roadmaps/Documents/SMLC_Smart_Manufacturing.pdf, Access date March 8, 2015.
  5. PCAST AMP Steering Committee Report - Accelerating U.S. Advanced Manufacturing,October27, 2014.
  6. NIST Standards.gov, WhatareStandards? http://www.nist.gov/standardsgov/definestandards.cfm.
  7. Gunasekaran,AgileManufacturing:The21stCenturyCompetitiveStrategy,Elsevier,2001
  8. LNS Research,2013.28ManufacturingMetricsthatActuallyMatter,http://blog.lnsresearch.com/blog/bid/188295/28-Manufacturing-Metrics-that-Actually-Matter-The-Ones-We-Rely-On.
  9. International Trade Administration, Howdoes Commerce define Sustainable Manufacturing? 2010, http://www.trade.gov/competitiveness/sustainablemanufacturing/how_doc_defines_SM.asp.
  10. PCAST AMP Steering Committee Report - Accelerating U.S. Advanced Manufacturing, Annex 1-10: Transformative Manufacturing Technology, October 27, 2014.
  11. P. Witherell, B. Kulvatunyou, and S. Rachu, Toward the Synthesis of Product Knowledge across the Lifecycle, Proceedings of the ASME 2013 International Mechanical Engineering Congress & Exposition IMECE2013, November 13-21, 2013, San Diego, California, USA
  12. S. Faltinski, O. Niggemann, N. Moriz, A. Mankowski, AutomationML: From Data Exchange to System Planning and Simulation, 2012 IEEE International Conference on Industrial Technology (ICIT), Athens, Greek.
  13. P. Bolstorff, R. Rosenbaum (2003). Supply Chain Excellence: A Handbook for Dramatic Improvement Using the SCOR Model. AMACOM Div American Mgmt Assn. ISBN 0-8144-0730-7.
  14. D. Kibira, KC Morris, Background Study of Methods and Tools for Performance Assurance of Smart Manufacturing Systems, forthcoming NISTIR.
  15. CIMOSA, CIM Open System Architecture. URL:http://www.pera.net/Methodologies/Cimosa/CIMOSA.html, Access date March 8, 2015.
  16. R. Sessions, A Comparison of the Top Four Enterprise-Architecture Methodologies, URL: <https://msdn.microsoft.com/en-us /library/bb466232.aspx>. Access date March 8, 2015.
  17. German Standardization Roadmap, Industry 4.0. URL: https://www.dke.de/de/std/documents/rz_roadmap%20industrie%204-0_engl_web.pdf, Access date March 14, 2015.
  18. S. Rachuri, KC Morris, U. Roy, D. Dornfeld, S. Kumara, "Sustainable Manufacturing Program Workshop Report," NISTIR 7975, National Institute of Standards and Technology, November 2013.
  19. "Sustainable Manufacturing – A Business Perspective: A Technology Roadmap," University of Kentucky, Institute for Sustainable Manufacturing, Feb. 2015.
  20. International Organization for Standardization (ISO), http://www.iso.org.
  21. American Society for Mechanical Engineers, (ASME) https://www.asme.org
  22. ASTM International, http://astm.org
  23. American National Standards Institute (ANSI), http://ansi.org
  24. Open Source Initiative, http://opensource.org/osr-intro
  25. World Wide Web Consortium (W3C), http://www.w3.org
  26. Internet Engineering Task Force (IETF), http://ietf.org
  27. ISO 10303-1:1994, “Industrial automation systems and integration - Product data representation and exchange - Part 1: Overview and fundamental principles,” International Organization for Standardization, 12/01/1994
  28. Open Applications Group Inc. (OAGi), http://www.oagi.org
  29. MTConnect Institute, http://mtconnect.org
  30. International Electrotechnical Commission (IEC), http://www.iec.ch
  31. OPC, https://opcfoundation.org
  32. Dimensional Metrology Standards Consortium (DMSC), http://www.dmsc-inc.org
  33. Manufacturing Enterprise Solutions Association International (MESA), http://mesa.org
  34. International Society of Automation (ISA), https://www.isa.org
  35. APICS, http://www.apics.org
  36. Industrial Internet Consortium (IIC), http://www.industrialinternetconsortium.org
  37. Institute of Electrical and Electronics Engineers (IEEE), http://www.ieee.org
  38. The Object Management Group, http://www.omg.org/
  39. NIST, Enabling the Digital Thread for Smart Manufacturing, http://www.nist.gov/el/msid/infotest/digital-thread-manufacturing.cfm
  40. NIST, Model-Based Enterprise Summit 2014, http://www.nist.gov/el/msid/mbesummit_2014.cfm
  41. National Institute of Standards and Technology (NIST), http://www.nist.gov
  42. NIST Big Data Program, http://bigdatawg.nist.gov/
  43. NIST Cybersecurity Framework, http://www.nist.gov/cyberframework
  44. G. Vogel-Heuser, G. Kegel, K. Bender, and K. Wucherer, Global information architecture for industrial automation. Automatisierungstechnische Praxis (atp), Oldenbourg-Verlag, Muenchen, 2009.
  45. https://www.whitehouse.gov/omb/circulars_a119/#3
  46. K. Amoako-Gyampah, M. Acquaah, Manufacturing strategy, competitive strategy and firm performance: An empirical study in a developing economy environment - International Journal of Production Economics, 2008
  47. STEP AP242 Project,
  48. Encyclopedia Britannica. In Encyclopedia Britannica Online: <http:// www.britannica.com>, 2015
  49. Rajesh ATTRI, Sandeep GROVER, A comparison of production system life cycle models, Front. Mech. Eng. 2012, 7(3): 305–311
  50. J. Lubell,S.P. Frechette, R.R. Lipman, F.M. Proctor, J.A. Horst, M. Carlisle,P.J. Huang, 2013. Model- Based Enterprise Summit Report, NIST Technical Note 1820, U.S. Department of Commerce
  51. A. Barnard Feeney, S.P. Frechette, V. Srinivasan; “A portrait of an ISO STEP tolerancing standard as an enabler of smart manufacturing systems;” 13th CIRP Conference on Computer Aided Tolerancing; May 2014;
  52. A.V. Euler-Chelpin, Information modelling for the manufacturing system life cycle, Doctoral Thesis, KTH Royal Institute of Technology, Stockholm, Sweden, 2008
  53. K. Thramboulidis, IEC 61499 vs. 61131: A Comparison Based on Misperceptions, ournal of software engineering and applications 6(08), December, 2012
  54. VDI/VDE-Gesellschaft Mess und Automatisierungstechnik (GMA). Cyber-physical systems: Chancen und nutzen aus sicht der Automation, Thesen und Handlungsfelder, April 2013.
  55. Germany Trade and Invest, Industrie 4.0 Smart Manufacturing for the Future, http://www.gtai.de/GTAI/Content/EN/Invest/_SharedDocs/Downloads/GTAI/Brochures/Industries/industrie4.0-smart-manufacturing-for-the-future-en.pdf
  56. Recommendations for implementing the strategic initiative INDUSTRIE 4.0, http://www.acatech.de/fileadmin/user_upload/Baumstruktur_nach_Website/Acatech/root/de/Material_fuer_Sonderseiten/Industrie_4.0/Final_report__Industrie_4.0_accessible.pdf
  57. The Reference Architectural Model Industrie 4.0 (RAMI 4.0), http://www.zvei.org/Downloads/Automation/ZVEI-Industrie-40-RAMI-40-English.pdf
  58. Connecting machines, IoT and the Cloud, http://www.iec.ch/etech/2015/etech_0515/ind-1.htm, May 2015.
  59. K. Bledowski, The Internet of Things: Industrie 4.0 vs. the Industrial Internet https://www.mapi.net/research/publications/industrie-4-0-vs-industrial-internet, June, 2015.
  60. Open Interconnect Consortium, http://openinterconnect.org/
  61. Internet of Things Architecture, http://www.iot-a.eu/public
  62. https://www.iot-at-work.eu/index.html
  63. ETSI, Machine to Machine Communications, http://www.etsi.org/index.php/technologies-clusters/technologies/m2m
  64. M2M World news, Standards will be critical for the emergence of the Internet of Things,http://m2mworldnews.com/2014/07/31/80797-standards-will-be-critical-for-the-emergence-of-the-internet-of-things/, 2014
  65. OneM2M, http://www.onem2m.org/
  66. Open Mobile Alliance, http://openmobilealliance.org/about-oma/work-program/m2m-enablers/
  67. Eclipse IoT, http://iot.eclipse.org/standards
  68. HyperCat, http://www.hypercat.io/
  69. Weightless, http://www.weightless.org/
  70. Eclipse SCADA, http://www.eclipse.org/eclipsescada/
  71. NIST, Cyber-Physical Systems, http://www.nist.gov/cps/
  72. H2020 call1 2014 - topic ICT1 "Smart Cyber-Physical Systems" - Overview of selected projects, http://ec.europa.eu/digital-agenda/en/news/h2020-call1-2014-topic-ict1-smart-cyber-physical-systems-overview-selected-projects
  73. VDI, Fachausschuss 7.20 - Cyber-Physical Systems, https://www.vdi.de/technik/fachthemen/mess-und-automatisierungstechnik/fachbereiche/anwendungsfelder-der-automation/gma-fa-720-cyber-physical-systems/
  74. MESA, Smart Manufacturing Working Group, http://mesa.org/en/committeeactivities/smartmanufacturingworkinggroup.asp
  75. Smart Manufacturing Leadership Coalition, https://smartmanufacturingcoalition.org/
  76. NIST Workshop on Open Cloud Architectures for Smart Manufacturing, http://www.nist.gov/el/msid/opencloudarch.cfm
  77. Lydon, B., Automation & Control Trends in 2015, http://www.automation.com/automation-news/article/automation-control-trends-in-2015
  78. IPC, http://ipc.org
  79. Accenture, How the industrial internet is changing the competitive landscape of industries, https://www.accenture.com/us-en/insight-industrial-internet-competitive-landscape-industries.aspx
  80. ProSTEP iViP Association, http://www.prostep.org/nc/en.html
  81. ANSI, http://www.ansi.org/news_publications/news_story.aspx?menuid=7&articleid=1862af9b-7157-44fa-b43b-ee3b3e9029ba
  82. B. Roben, Standards Activities of Organizations in the United States, NIST Special Publication 806, 1996 Edition.
  83. Arden L. Bement , “Standards and Infrastructure: Foundations of Manufacturing Competitiveness”, http://www.nist.gov/director/speeches/bement_032703.cfm
  84. Overview of the U.S. Standardization System, http://www.standardsportal.org/usa_en/standards_system.aspx
  85. The Empirical Economics of Standards JUNE 2005, DTI Economics Paper no.12, June 2005, http://www.sis.se/upload/632555702720125533.pdf
  86. Economic Benefits of Standardization , DIN - German Institute for Standardization, 2000, http://www.din.de/blob/89552/68849fab0eeeaafb56c5a3ffee9959c5/economic-benefits-of-standardization-en-data.pdf
  87. Standards Learn, http://www.standardslearn.org/
  88. T. J. Coelli, D. S. P. Rao, C.J. O'Donnell, G.E. Battese, An Introduction to Efficiency and Productivity Analysis, Springer, 2005
  89. A. V. Euler-Chelpin, Information modelling for the manufacturing system life cycle, Doctoral Thesis, KTH – Production Engineering, Stockholm, Sweden, 2008, ISSN 1650-1888
  90. A. Zuckerman, International Standards Desk Reference: Your Passport to World Markets, American Management Association, 1997
  91. https://www.modelica.org/
  92. The Data Mining Group, http://dmg.org/
  93. Global Harmonization of Standards, http://www.okstate.edu/ind-engr/step/WEBFILES/Papers/Global_Harm_body.htm
  94. NIST Smart Manufacturing Systems Design and Analysis Program, http://www.nist.gov/el/msid/syseng/smsda.cfm
  95. NIST Robotic Systems for Smart Manufacturing Program, http://www.nist.gov/el/isd/ms/rssm.cfm
  96. NIST Measurement Science for Additive Manufacturing Program, http://www.nist.gov/el/isd/sbm/msam.cfm

results matching ""

    No results matching ""